Young’s Interference Experiment In 1801, Thomas Young demonstrated the wave nature of light by showing that it produced interference effects he measured.

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Presentation on theme: "Young’s Interference Experiment In 1801, Thomas Young demonstrated the wave nature of light by showing that it produced interference effects he measured."— Presentation transcript:

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Young’s Interference Experiment In 1801, Thomas Young demonstrated the wave nature of light by showing that it produced interference effects he measured the average of sunlight to be 570 nm a single slit causes diffraction of sunlight to illuminate two slits S 1 and S 2 each of these sends out circular waves which overlap and interfere

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Diffraction How do we know light is a wave? Waves undergo diffraction if a wave encounters an object that has an opening of dimensions similar to its, part of the wave will flare out through the opening can be understood using Huygen’s argument true for all waves e.g ripple tank

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Coherence For interference to occur, the phase difference between the two waves arriving at any point P must not depend on time. The waves passing through slits 1 and 2 are parts of the same wave and are said to be coherent light from different parts of the sun is not coherent the first slit in Young’s expt produces a coherent source of waves for the slits S 1 and S 2

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Young’s Double Slit Interference pattern depends on of incident light and the separation ‘d’ of the two slits S 1 and S 2 bright vertical rows or bands (fringes) appear on the screen separated by dark regions

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Choose any point P on the screen located at an angle  with respect to central axis Wavelets from S 1 and S 2 interfere at P. They are in phase when they enter the slits but travel different distances to P. Assume D>>d so that rays r 1 and r 2 are approximately parallel